#!/bin/bash
#
# lustre	This shell script takes care of starting and stopping
#	       the lustre services.
#
# chkconfig: - 60 20
# description:  Part of the lustre file system.
# probe: true
# config: /etc/sysconfig/lustre
### BEGIN INIT INFO
# Provides: lustre
# Required-Start: lnet
# Defalt-Start: -
# Default-Stop: 0 1 6
# Description: Lustre init script
### END INIT INFO

PATH=/sbin:/usr/sbin:/bin:/usr/bin

# Source function library.
. /etc/rc.d/init.d/functions

# Source networking configuration.
if [ ! -f /etc/sysconfig/network ]; then
	exit 0
fi

. /etc/sysconfig/network

LDEV=${LDEV:-"/usr/sbin/ldev"}
ZPOOL_LAYOUT=/usr/bin/zpool_layout
UDEVADM=${UDEVADM:-/sbin/udevadm}

# Check that networking is up.
[ "${NETWORKING}" = "no" ] && exit 0

# Check for and source configuration file otherwise set defaults
[ -f /etc/sysconfig/lustre ] && . /etc/sysconfig/lustre
FSCK_ARGS=${FSCK_ARGS:-""}
MOUNT_OPTIONS=${MOUNT_OPTIONS:-""}
LOCAL_SRV=${LOCAL_SRV:-"`$LDEV -l 2>/dev/null`"}
FOREIGN_SRV=${FOREIGN_SRV:-"`$LDEV -f 2>/dev/null`"}
REQUIRE_MMP_FEATURE=${REQUIRE_MMP_FEATURE:-${FOREIGN_SRV:+"yes"}}
LOCAL_MOUNT_DIR=${LOCAL_MOUNT_DIR:-"/mnt/lustre/local"}
FOREIGN_MOUNT_DIR=${FOREIGN_MOUNT_DIR:-"/mnt/lustre/foreign"}
SETUP_DEVICES=${SETUP_DEVICES:-""}
ZPOOL_LAYOUT_BUSES=${ZPOOL_LAYOUT_BUSES:-""}
ZPOOL_LAYOUT_PORTS=${ZPOOL_LAYOUT_PORTS:-""}
ZPOOL_LAYOUT_MAP=${ZPOOL_LAYOUT_MAP:-""}
MOUNT_DELAY=${MOUNT_DELAY:-2}
LOAD_ZFS=${LOAD_ZFS:-""}

if [ -z "$TUNE2FS" ] ; then
	TUNE2FS=`which tunefs.ldiskfs 2>/dev/null`
	if [ -z "$TUNE2FS" ] ; then
		TUNE2FS=`which tune2fs 2>/dev/null`
	fi
fi

if [ -z "$PFSCK" ] ; then
	PFSCK=`which pfsck.ldiskfs 2>/dev/null`
	if [ -z "$PFSCK" ] ; then
		PFSCK=`which fsck 2>/dev/null`
	fi
fi

shopt -s nullglob

start_zfs_services ()
{
	if [ -n "$ZPOOL_LAYOUT_BUSES" -a -n "$ZPOOL_LAYOUT_PORTS" ] ; then
		MAP_ARG=${ZPOOL_LAYOUT_MAP:+"-m $ZPOOL_LAYOUT_MAP"}
		$ZPOOL_LAYOUT -t -b "$ZPOOL_LAYOUT_BUSES" \
			-p "$ZPOOL_LAYOUT_PORTS" $MAP_ARG
	fi
	if [ "$LOAD_ZFS" = "yes" ] && ! modprobe zfs ; then
		echo "Failed to load zfs module.  Aborting."
		exit 1
	fi
}

stop_devices ()
{
	local labels=$*
	local label devtype
	for label in $labels; do
		devtype=`$LDEV -t $label`
		if [ "$devtype" = "zfs" ] ; then
			export_zpool $label
		elif [ "$devtype" = "md" ] ; then
			dev=`label_to_device $label`
			journal=`$LDEV -j $label`
			stop_md_device $dev
			stop_md_device $journal
		fi
	done
}

import_zpool ()
{
	local result=1
	local label=$1
	local pool=`$LDEV -z $label`
	local args="-N $ZPOOL_IMPORT_ARGS"
	local cache=`$LDEV -r $label`
	# -c is incompatible with -d
	if [ -n "$cache" ] ; then
		args="$args -c $cache"
	elif [ -n "$ZPOOL_IMPORT_DIR" ] ; then
		args="$args -d $ZPOOL_IMPORT_DIR"
	fi

	if zpool status $pool >/dev/null 2>&1 ; then
		result=0
	elif [ -n "$pool" ] ; then
		zpool import $pool $args 2>/dev/null
		result=$?
	fi
	if [ $result -ne 0 ] ; then
		echo "Unexpected return code from import of pool $pool: $result"
	fi
	return $result
}

export_zpool ()
{
	local label=$1
	local pool=`$LDEV -z $label`
	zpool export $pool 2>/dev/null
}

# Trigger udev and wait for it to settle.
udev_trigger()
{
	if [ -x ${UDEVADM} ]; then
		${UDEVADM} trigger --action=change --subsystem-match=block
		${UDEVADM} settle
	else
		/sbin/udevtrigger
		/sbin/udevsettle
	fi
}

# Usage: run_preexec_check [ start | restart | condrestart ]
# The single parameter will be passed to the PREEXEC_SCRIPT
run_preexec_check ()
{
	if [ -n "$PREEXEC_CHECK" ] && ! $PREEXEC_CHECK ; then
		echo "Pre-exec check \"$PREEXEC_CHECK\" failed.  Aborting."
		exit 1
	fi

	if [ -n "$PREEXEC_SCRIPT" ] && ! "$PREEXEC_SCRIPT" "$1" ; then
		echo "Pre-exec script \"$PREEXEC_SCRIPT\" failed.  Aborting."
		exit 1
	fi
}

# Usage: run_postexec_check [ start | restart | condrestart ]
# The single parameter will be passed to the PREEXEC_SCRIPT
run_postexec_check ()
{
	if [ -n "$POSTEXEC_CHECK" ] && ! $POSTEXEC_CHECK ; then
		echo "Post-exec check \"$POSTEXEC_CHECK\" failed.  Aborting."
		exit 1
	fi

	if [ -n "$POSTEXEC_SCRIPT" ] && ! "$POSTEXEC_SCRIPT" "$1" ; then
		echo "Post-exec script \"$POSTEXEC_SCRIPT\" failed.  Aborting."
		exit 1
	fi
}

# Usage: adjust_scsi_timeout <dev>
adjust_scsi_timeout ()
{
	local dev=$1

	if [ -n "$SCSI_DEVICE_TIMEOUT" ]; then
		# make sure that it is actually a SCSI (sd) device
		local name=`basename $dev`
		local proc=/sys/block/${name}/device/timeout
		local driver=`readlink /sys/block/${name}/device/driver`
		if [ -n "$driver" ] && [ "`basename $driver`" == "sd" ]; then
			if ! echo $SCSI_DEVICE_TIMEOUT >$proc; then
				echo "FAILED: could not adjust ${dev} timeout"
				return 1
			fi
		fi
	fi
	return 0
}

# Usage: fsck_test <dev> [ <dev> ... ]
# Checks all devices in parallel if FSCK_ARGS is set.
fsck_test ()
{
	local devices="$*"

	# Filter out non-absolute paths, which are probably ZFS datasets
	devices=`echo $devices |xargs -n 1|grep '^/'|xargs`

	if [ -n "${FSCK_ARGS}" -a -n "$devices" ]; then
		if [ -x $PFSCK ] ; then
			echo "$PFSCK $devices -- ${FSCK_ARGS}"
			$PFSCK $devices -- ${FSCK_ARGS}
			if [ $? -ne 0 -a $? -ne 1 ] ; then
				echo "FAILED: $PFSCK -- ${FSCK_ARGS}: $?"
				return 1
			fi
		else
			echo "$PFSCK not found"
			return 1
		fi
	fi
	return 0
}

# Usage: test_feature_flag <dev> <flag>
test_feature_flag()
{
	local dev=$1
	local flag=$2
	local result=1
	local feature

	for feature in `$TUNE2FS -l $dev 2>/dev/null \
				| grep features: | sed -e 's/^.*: //'`; do
		if [ "$feature" == "$flag" ]; then
			result=0
			break
		fi
	done

	return $result
}

# Usage: mmp_test <dev>
# Returns 0 if it is set or not required, 1 if unset and required or error.
mmp_test ()
{
	local dev=$1
	local result=0

	if [ "$REQUIRE_MMP_FEATURE" == "yes" ]; then
		if [ -x $TUNE2FS ]; then
			if ! test_feature_flag $dev "mmp"; then
				echo "mmp feature flag is not set on $dev"
				result=1
			fi
		else
			echo "$TUNE2FS not found"
			result=1
		fi
	fi

	return $result
}

# Usage: label_to_mountpt <label>
# Prints mount point path, if label matches a local or foreign server.
label_to_mountpt ()
{
	local label=$1
	local serv

	for serv in $LOCAL_SRV; do
		if [ "$serv" == "$label" ]; then
			echo "$LOCAL_MOUNT_DIR/$label"
			return
		fi
	done
	for serv in $FOREIGN_SRV; do
		if [ "$serv" == "$label" ]; then
			echo "$FOREIGN_MOUNT_DIR/$label"
			return
		fi
	done
}

# Usage: label_to_device <label>
# Prints canonical device path.
label_to_device ()
{
	local label=$1
	local path=/dev/disk/by-label/$label

	if [ -h $path ] ; then
		readlink --canonicalize $path
	else
		$LDEV -d $label
	fi
}

# helper for mountpt_is_active() and device_is_active()
declare -r awkprog='BEGIN {rc = 1;}
			{ if ($field == path) {rc = 0;} }
		    END { exit rc;}'

# Usage: mountpt_is_active <label>
# Return 1 (inactive) on invalid label.
mountpt_is_active ()
{
	local dir=`label_to_mountpt $1`
	local result=1

	if [ -n "$dir" ]; then
		cat /proc/mounts | awk "$awkprog" field=2 path=$dir
		result=$?
	fi
	return $result
}

# Usage: device_is_active <label>
# Return 1 (inactive) on invalid label.
device_is_active ()
{
	local dev=`label_to_device $1`
	local result=1

	if [ -n "$dev" ]; then
		cat /proc/mounts | awk "$awkprog" field=1 path=$dir
		result=$?
	fi
	return $result
}

# Usage: mount_one_device <label> <successflag> [devtype]
# Remove <successflag> on error (trick to detect errors after parallel runs).
mount_one_device ()
{
	local label=$1
	local successflag=$2
	local devtype=$3
	local dev=`label_to_device $label`
	local dir=`label_to_mountpt $label`

	# $dir and $dev have already been checked at ths point
	if [ ! -d $dir ] && ! mkdir -p $dir; then
		rm -f $successflag
		return
	fi
	echo "Mounting $dev on $dir"
	if ! mount -t lustre $MOUNT_OPTIONS $dev $dir; then
		rm -f $successflag
		return
	fi
}

# Usage: assemble_md_device <device>
# Assemble the md device backing device.
# Return 0 if the array is assembled successfully or was already active,
# otherwise return error code from mdadm.
assemble_md_device ()
{
	local dev=$1
	local raidtab=$2
	local args="-Aq"
	local result=0

	if [ -n "$raidtab" ] ; then
		args="$args -c $raidtab"
	fi

	if ! md_array_is_active $dev ; then
		mdadm $args $dev
		result=$?
	fi

	udev_trigger
	return $result
}

# Usage: stop_md_device <device>
# Stop the md device backing device.
# Return 0 if the array is stopped successfully or was not active,
# otherwise return error code from mdadm.
stop_md_device ()
{
	local dev=$1
	local raidtab=$2
	local args="-Sq"
	local result=0

	if [ -n "$raidtab" ] ; then
		args="$args -c $raidtab"
	fi

	if [ -e $dev ] && md_array_is_active $dev ; then
		mdadm $args $dev
		result=$?
	fi

	return $result
}

# Usage: md_array_is_active <device>
# return 0 if device is an active md RAID array, or 1 otherwise
md_array_is_active ()
{
	local device=$1

	[ -e "$device" ] || return 1

	mdadm --detail -t $device > /dev/null 2>&1
	if [ $? -eq 4 ] ; then
		return 1
	fi
	return 0
}

# Usage: start_services <label> [ <label> ... ]
# fsck and mount any devices listed as arguments (in parallel).
# Attempt to assemble software raid arrays or zfs pools backing
# Lustre devices.
start_services ()
{
	local result=0
	local devices=""
	local dir dev label
	local successflag
	local labels

	start_zfs_services
	for label in $*; do
		dir=`label_to_mountpt $label`
		devtype=`$LDEV -t $label`
		dev=`label_to_device $label`
		journal=`$LDEV -j $label`
		raidtab=`$LDEV -r $label`

		if [ -z "$dir" ] || [ -z "$dev" ]; then
			echo "$label is not a valid lustre label on this node"
			result=2
			continue
		fi

		if [ "$devtype" = "md" ] ; then
			if ! assemble_md_device $dev $raidtab ; then
				echo "failed to assemble array $dev backing $label"
				result=2
				continue
			fi
		elif [ "$devtype" = "zfs" ] ; then
			if ! import_zpool $label ; then
				result=2
			fi
		fi

		# Journal device field in ldev.conf may be "-" or empty,
		# so only attempt to assemble if its an absolute path.
		# Ignore errors since the journal device may not be an
		# md device.
		if echo $journal | grep -q ^/ ; then
			assemble_md_device $journal $raidtab 2>/dev/null
		fi

		if mountpt_is_active $label || \
		   device_is_active $label; then
			echo "$label is already mounted"
			# no error
			continue
		fi

		if [ "x$devtype" != "xzfs" ] ; then
			if ! mmp_test $dev; then
				result=2
				continue
			fi
			if ! adjust_scsi_timeout $dev; then
				result=2
				continue
			fi
		fi
		devices="$devices $dev"
		labels="$labels $label"
	done
	if [ $result == 0 ]; then
		fsck_test $devices || return 2

		# Fork to handle multiple mount_one_device()'s in parallel.
		# Errors occurred if $successflag comes up missing afterwards.
		successflag=`mktemp`
		[ -e $successflag ] || return 2
		for label in $labels; do
			mount_one_device $label $successflag `$LDEV -t $label` &
			# stagger to avoid module loading races
			if [[ -n $MOUNT_DELAY && $MOUNT_DELAY -gt 0 ]] ; then
				sleep $MOUNT_DELAY
			fi
		done
		for label in $labels; do
			wait
		done
		[ -e $successflag ] || return 2
		rm -f $successflag
	fi

	return $result
}

# Usage: stop_services <label> [ <label> ... ]
# Unmount any devices listed as arguments (serially).
# Any devices which are not mounted or don't exist are skipped with no error.
stop_services ()
{
	local labels=$*
	local result=0
	local pids=""
	local dir dev label

	for label in $labels; do
		dir=`label_to_mountpt $label`
		if [ -z "$dir" ]; then
			echo "$label is not a valid lustre label on this node"
			result=2
			continue
		fi
		if ! mountpt_is_active $label; then
			#echo "$label is not mounted"
			# no error
			continue
		fi

		echo "Unmounting $dir"
		umount $dir &

		if [ -z "$pids" ]; then
			pids="$!"
		else
			pids="$pids $!"
		fi
	done

	# wait for all umount processes to complete, report any errors
	for pid in $pids; do
		wait $pid || result=2
	done

	# double check!
	for label in $labels; do
		if mountpt_is_active $label; then
			dir=`label_to_mountpt $label`
			echo "Mount point $dir is still active"
			result=2
		fi
		if device_is_active $label; then
			dev=`label_to_device $label`
			echo "Device $dev is still active"
			result=2
		fi
	done
	stop_devices $labels

	return $result
}

# Usage: start_lustre_services [local|foreign|all|<label>]
# If no parameter is specified, local devices will be started.
start_lustre_services ()
{
	local labels=""

	case "$1" in
		""|local)
			labels=$LOCAL_SRV
			;;
		foreign)
			labels=$FOREIGN_SRV
			;;
		all)	labels="$LOCAL_SRV $FOREIGN_SRV"
			;;
		*)	labels="$1"
			;;
	esac
	# for use by heartbeat V1 resource agent:
	# starting an already-started service must not be an error
	start_services $labels || exit 2
}

# Usage: stop_lustre_services [local|foreign|all|<label>]
# If no parameter is specified all devices will be stopped.
stop_lustre_services ()
{
	local labels=""

	case "$1" in
		local) labels=$LOCAL_SRV
			;;
		foreign)
			labels=$FOREIGN_SRV
			;;
		""|all)	labels="$LOCAL_SRV $FOREIGN_SRV"
			;;
		*)	labels="$1"
			;;
	esac
	# for use by heartbeat V1 resource agent:
	# stopping already-stopped service must not be an error
	stop_services $labels || exit 2
}

# General lustre health check - not device specific.
health_check ()
{

	old_nullglob="`shopt -p nullglob`"
	shopt -u nullglob

	STATE="stopped"
	# LSB compliance - return 3 if service is not running
	# Lustre-specific returns
	# 150 - partial startup
	# 151 - health_check unhealthy
	# 152 - LBUG
	RETVAL=3
	egrep -q "libcfs|lvfs|portals" /proc/modules && STATE="loaded"

	# check for any configured devices (may indicate partial startup)
	VAR=$(lctl get_param version 2>&1)
	if [ $? = 0 ] ; then
		VAR=$(lctl get_param -n devices 2>&1)
		if [ $? = 0 ] ; then
			STATE="partial"
			RETVAL=150
		fi

		# check for either a server or a client filesystem
		local MGT=""
		local MDT=""
		local OST=""
		local LLITE=""

		! lctl get_param -n mgs.MGS.* >/dev/null 2>&1 || MGT="YES"

		VAR=$(lctl get_param -n mdt.*.recovery_status 2>&1 | grep '^status:'  )
		if [ $? = 0 ] ; then
			MDT=$VAR
		fi

		VAR=$(lctl get_param -n obdfilter.*.recovery_status 2>&1 | grep '^status:')
		if [ $? = 0 ] ; then
			OST=$VAR
		fi

		VAR=$(lctl get_param -n llite.fs* 2>&1)
		if [ $? = 0 ] ; then
			LLITE="YES"
		fi

		if [ "$MGT" -o "$MDT" -o "$OST" -o "$LLITE" ]; then
			STATE="running"
			RETVAL=0
		fi
	else
		# check if this is a router
		if [[ "$(lctl get_param -n routes)" =~ "Routing enabled" ]]; then
			STATE="running"
			RETVAL=0
		fi
	fi

	# check for server disconnections
	VAR=$(lctl get_param -n *c.*.*server_uuid 2>&1)
	if [ $? = 0 ] ; then
		DISCON="$(echo $VAR | grep -v FULL)"
	        if [ -n "$DISCON" ] ; then
			STATE="disconnected"
			RETVAL=0
		fi
	fi

	# check for servers in recovery
	if [ -n "$MDT$OST" ] && echo $MDT $OST | grep -q RECOV ; then
		STATE="recovery"
		RETVAL=0
	fi

	# check for error in health_check
	local health_check=$(lctl get_param -n health_check)
	if [[ "$health_check" =~ "NOT HEALTHY" ]]; then
		STATE="unhealthy"
		RETVAL=1
	fi

	# check for LBUG
	if [[ "$health_check" =~ "LBUG" ]]; then
		STATE="LBUG"
		RETVAL=152
	fi

	echo $STATE
	eval $old_nullglob
	return $RETVAL
}

# Usage: status [local|foreign|all|<label>]
# If no parameter is specified, general lustre health status will be reported.
status ()
{
	local labels=""
	local label dir
	local valid_devs=0

	case "$1" in
		local) labels=$LOCAL_SRV;
			;;
		foreign)
			labels=$FOREIGN_SRV;
			;;
		all)	labels="$LOCAL_SRV $FOREIGN_SRV"
			;;
		"")	# ASSUMPTION: this is not the heartbeat res agent
			health_check
			exit $?
			;;
		*)	labels=$1
			;;
	esac
	# for use by heartbeat V1 resource agent:
	# print "running" if *anything* is running.
	for label in $labels; do
		dir=`label_to_device $label`
		if [ -z "$dir" ]; then
			echo "$label is not a valid lustre label on this node"
			# no error
			continue
		fi
		valid_devs=1
		if mountpt_is_active $label || device_is_active $label; then
			echo "running"
			exit 0
		fi
	done
	[ $valid_devs == 1 ] && echo "stopped"
	exit 3
}

usage ()
{
	cat <<EOF
Usage: lustre {start|stop|status|restart|reload|condrestart}

       lustre start  [local|foreign|<label>]
       lustre stop   [local|foreign|<label>]
       lustre status [local|foreign|<label>]
EOF
	exit 1
}

# See how we were called.
case "$1" in
  start)
	if [ $# -gt 2 ] ; then
		echo "ERROR: Too many arguments."
		usage
	fi
	run_preexec_check "start"
	start_lustre_services $2
	run_postexec_check "start"
	;;
  stop)
	if [ $# -gt 2 ] ; then
		echo "ERROR: Too many arguments."
		usage
	fi
	run_preexec_check "stop"
	stop_lustre_services $2
	run_postexec_check "stop"
	;;
  status)
	if [ $# -gt 2 ] ; then
		echo "ERROR: Too many arguments."
		usage
	fi
	status $2
	;;
  restart)
	$0 stop
	$0 start
	;;
  reload)
	;;
  probe)
	;;
  condrestart)
	if grep lustre /proc/mounts ; then
		$0 stop
		$0 start
	fi
	;;
  *)
	usage
esac

exit 0
